Design of a custom metamaterial insert for improved pressure distribution within transtibial prosthetic sockets.

IF 0.8 4区 医学 Q4 ORTHOPEDICS
Meredith K Owen, Brian D Kaluf, John D DesJardins
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引用次数: 0

Abstract

Uneven pressure distribution within a transtibial prosthetic socket can lead to discomfort, skin degradation, and suspended prosthesis use. Current custom interfaces to improve pressure distribution are often costly, time-intensive to fabricate, or cannot be incorporated into standard socket fabrication methods. In this technical note, we describe the design and preliminary clinical evaluation of a novel transtibial prosthetic socket insert with modifiable mechanical properties, which can be incorporated into the current clinical cycle of care. The custom insert (termed "inlay") relies on a triangular unit cell, which can be modified based on the desired stiffness profile. Inserts are 3D printed in a soft polymer material and inset into shape-matched voids in a socket creating regions of custom offloading. Preliminary clinical efficacy of the inserts was assessed in a pilot long-term cross-over evaluation. After Institutional Review Board approval, 3 pilot participants wore a shape-matched replica of their habitual socket modified for insert use and a shape-matched socket without. Sockets were worn for 4-week each, and inner socket pressures were measured with thin film pressure sensors at the end of the wear period. Peak pressures within the distal tibial region of interest were decreased for 2 of 3 participants during midstance of level-ground walking when wearing the socket with inlays. The technical methods and results presented provide a new method to address high pressure regions within a transtibial prosthetic socket. The 3D-printed inlays can be rapidly produced allowing for easy modification and replacement without require new socket fabrication.

设计定制超材料嵌入件,改善经胫假肢套筒内的压力分布。
经胫假肢套筒内压力分布不均会导致不适、皮肤退化和假肢使用中止。目前用于改善压力分布的定制接口通常成本高昂、制作时间长,或者无法纳入标准义肢套筒制作方法。在本技术报告中,我们介绍了一种新型经胫假体插座的设计和初步临床评估,该插座具有可修改的机械性能,可纳入当前的临床护理周期。这种定制插入物(称为 "嵌体")依赖于一个三角形单元格,可以根据所需的硬度曲线进行修改。嵌体由软性聚合物材料 3D 打印而成,嵌入插座中形状匹配的空隙中,形成定制的卸载区域。插入物的初步临床疗效在一项试验性长期交叉评估中进行了评估。在获得机构审查委员会批准后,3 名试点参与者分别佩戴了一个形状匹配的惯用义齿套筒复制品和一个形状匹配的无义齿套筒。每个插座佩戴 4 周,在佩戴期结束时使用薄膜压力传感器测量插座内的压力。在平地行走的中段,佩戴带有嵌体的髋臼时,3 名参与者中有 2 人的胫骨远端相关区域的峰值压力有所降低。所介绍的技术方法和结果为解决经胫骨假肢套筒内高压区域的问题提供了一种新方法。三维打印嵌体可以快速制作,便于修改和更换,无需重新制作假肢套筒。
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来源期刊
CiteScore
2.30
自引率
13.30%
发文量
208
审稿时长
6-12 weeks
期刊介绍: Prosthetics and Orthotics International is an international, multidisciplinary journal for all professionals who have an interest in the medical, clinical, rehabilitation, technical, educational and research aspects of prosthetics, orthotics and rehabilitation engineering, as well as their related topics.
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